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Author: Matthias GiesePublisher: SpringerISBN: 331925832XSize: 38.48 MBFormat: PDFView: 928Download and Read
This textbook provides an easy-to-understand introduction to the complex topic of vaccine research and development. It gives a comprehensive though clearly arranged insight to the most important aspects of molecular vaccinology, leading from the basics in immunology, to design of vaccines and mode of action of vaccines to the actual formulation, manufacturing and registration of vaccines. The volume is therefore a valuable text about modern vaccinology for graduate students and a basic introduction for newcomers in vaccine design and development.

Author: Ken IshiiPublisher: Academic PressISBN: 0124051685Size: 11.19 MBFormat: PDF, ePubView: 2974Download and Read
Biological DNA Sensor defines the meaning of DNA sensing pathways and demonstrates the importance of the innate immune responses induced by double stranded DNA (dsDNA) through its influencing functions in disease pathology and immune activity of adjuvants for vaccines. Though discussed in specific subsections of existing books, dsDNA and its immunogenic properties has never received the complete treatment given in this book. Biological DNA Sensor approaches the impact of dsDNA's immunogenicity on disease and vaccinology holistically. It paints a complete and concise picture on the topic so you can understand this area of study and make more informed choices for your respective research needs. Chapters are authored by researchers who are renowned for their research focus, ensuring that this book provides the most complete views on the topics. Multi-authored by a distinguished panel of world-class experts Ideal source of information for those wanting to learn about DNA sensing Provides in-depth explanations of DNA sensing pathways and the innate immune system, bridging the gap between them

Author: W. John W. MorrowPublisher: John Wiley & SonsISBN: 1118345347Size: 40.81 MBFormat: PDF, KindleView: 7762Download and Read
Covering all aspects of vaccine research and development in one volume, this authoritative resource takes a comprehensive and systematic approach to the science of vaccinology focusing not only on basic science, but also on the many stages required to commercialize and navigate the regulatory requirements for human application, both in the United States and Europe. Reviews in detail the process of designing a vaccine, from the initial stages of antigen discovery to human application Includes evaluation of vaccine efficacy and safety Details clinical trial design, including regulatory requirements Discusses the emerging field of active cellular immunotherapy Vaccinology: Principles and Practice provides an invaluable resource for clinicians, scientific and medical researchers, lecturers and postdoctoral fellows working in the field of vaccines.

Author: Darren R. FlowerPublisher: John Wiley & SonsISBN: 0470699825Size: 54.46 MBFormat: PDF, ePubView: 1176Download and Read
“... this book was written from start to finish by one extremely dedicated and erudite individual. The author has done an excellent job of covering the many topics that fall under the umbrella of computational biology for vaccine design, demonstrating an admirable command of subject matter in fields as disparate as object-oriented databases and regulation of T cell response. Simply put, it has just the right breadth and depth, and it reads well. In fact, readability is one of its virtues—making the book enticing and useful, all at once...” Human Vaccines, 2010 "... This book has several strong points. Although there are many textbooks that deal with vaccinology, few attempts have been made to bring together descriptions of vaccines in history, basic bioinformatics, various computational solutions and challenges in vaccinology, detailed experimental methodologies, and cutting-edge technologies... This book may well serve as a first line of reference for all biologists and computer scientists..." –Virology Journal, 2009 Vaccines have probably saved more lives and reduced suffering in a greater number of people than any other medical intervention in human history, succeeding in eradicating smallpox and significantly reducing the mortality and incidence of other diseases. However, with the emergence of diseases such as SARS and the threat of biological warfare, vaccination has once again become a topic of major interest in public health. Vaccinology now has at its disposal an array of post-genomic approaches of great power. None has a more persuasive potential impact than the application of computational informatics to vaccine discovery; the recent expansion in genome data and the parallel increase in cheap computing power have placed the bioinformatics exploration of pathogen genomes centre stage for vaccine researchers. This is the first book to address the area of bioinformatics as applied to rational vaccine design, discussing the ways in which bioinformatics can contribute to improved vaccine development by introducing the subject of harnessing the mathematical and computing power inherent in bioinformatics to the study of vaccinology putting it into a historical and societal context, and exploring the scope of its methods and applications. Bioinformatics for Vaccinology is a one-stop introduction to computational vaccinology. It will be of particular interest to bioinformaticians with an interest in immunology, as well as to immunologists, and other biologists who need to understand how advances in theoretical and computational immunobiology can transform their working practices.

Author: Matthias GiesePublisher: Springer Science & Business MediaISBN: 3319009788Size: 40.83 MBFormat: PDF, DocsView: 2211Download and Read
This title discusses all aspects of non-infectious and non-cancer– so called NINC – vaccines. Hypertension, diabetes and allergy vaccine development are referred to as well as the use of adjuvants and nanotechnology in vaccine development. The way of novel vaccines from bench to preclinical to clinical studies and launch to the market under EMEA (European Medicines Agency) and FDA (Food and Drug Administration) guidelines are described in-depth. The book is therefore of interest for researchers and clinicians engaged in vaccine development and molecular vaccine application.

Author: Yi-Wei TangPublisher: Academic PressISBN: 0123977630Size: 52.57 MBFormat: PDF, MobiView: 7031Download and Read
The molecular age has brought about dramatic changes in medical microbiology, and great leaps in our understanding of the mechanisms of infectious disease. Molecular Medical Microbiology is the first book to synthesise the many new developments in both molecular and clinical research in a single comprehensive resource. This timely and authoritative three-volume work is an invaluable reference source of medical bacteriology. Comprising more than 100 chapters, organized into 17 major sections, the scope of this impressive work is wide-ranging. Written by experts in the field, chapters include cutting-edge information, and clinical overviews for each major bacterial group, in addition to the latest updates on vaccine development, molecular technology and diagnostic technology. Topics covered include bacterial structure, cell function, and genetics; mechanisms of pathogenesis and prevention; antibacterial agents; and infections ranging from gastrointestinal to urinary tract, centrtal nervous system, respiratory tract, and more. The first comprehensive and accessible reference on molecular medical microbiology Full color presentation througout In-depth discussion of individual pathogenic bacteria in a system-oriented approach Includes a clinical overview for each major bacterial group Presents the latest information on vaccine development, molecular technology, and diagnostic technology More than 100 chapters covering all major groups of bacteria Written by an international panel of authors who are experts in their respective disciplines

Author: Virgil SchijnsPublisher: Academic PressISBN: 0128040955Size: 55.12 MBFormat: PDF, MobiView: 6511Download and Read
Immunopotentiators in Modern Vaccines, Second Edition, provides in-depth insights and overviews of the most successful adjuvants, those that have been included in licensed products, also covering the most promising technologies that have emerged in recent years. In contrast to existing books on the subject, the chapters here provide summaries of key data on the mechanisms of action of the individual vaccine adjuvants. In addition, the book covers key aspects of how the technologies might be further developed and what might be their limitations, while also giving an overview of what made the most advanced adjuvant technologies successful. Provides contributions from leading international authorities in the field Features immunopotentiators classified by function, with well-illustrated, informative figures presenting the interaction between the immunopotentiators and the host immune system Lists advantages and potential hurdles for achieving a practical application for each specific immunopotentiator Offers US FDA perspectives which highlight how future adjuvants will be approved for new generation vaccines

Author: Stanley A. PlotkinPublisher: Springer Science & Business MediaISBN: 9781441913395Size: 15.44 MBFormat: PDFView: 2498Download and Read
Vaccinology, the concept of a science ranging from the study of immunology to the development and distribution of vaccines, was a word invented by Jonas Salk. This book covers the history of the methodological progress in vaccine development and to the social and ethical issues raised by vaccination. Chapters include "Jenner and the Vaccination against Smallpox," "Viral Vaccines," and "Ethical and Social Aspects of vaccines." Contributing authors include pioneers in the field, such as Samuel L. Katz and Hilary Koprowski. This history of vaccines is relatively short and many of its protagonists are still alive. This book was written by some of the chief actors in the drama whose subject matter is the conquest of epidemic disease.

Author: Alan D. T. BarrettPublisher: John Wiley & SonsISBN: 0470656166Size: 26.91 MBFormat: PDFView: 1437Download and Read
Vaccinology: An Essential Guide outlines in a clear, practical format the entire vaccine development process, from conceptualization and basic immunological principles through to clinical testing and licensing of vaccines. With an outstanding introduction to the history and practice of vaccinology, it also guides the reader through the basic science relating to host immune responses to pathogens. Covering the safety, regulatory, ethical, and economic and geographical issues that drive vaccine development and trials, it also presents vaccine delivery strategies, novel vaccine platforms (including experimental vaccines and pathogens), antigen development and selection, vaccine modelling, and the development of vaccines against emerging pathogens and agents of bioterror. There are also sections devoted to veterinary vaccines and associated regulatory processes. Vaccinology: An Essential Guide is a perfect tool for designed for undergraduate and graduate microbiologists and immunologists, as well as residents, fellows and trainees of infectious disease and vaccinology. It is also suitable for all those involved in designing and conducting clinical vaccine trials, and is the ideal companion to the larger reference book Vaccinology: Principles and Practice.

Author: Rino RappuoliPublisher: Horizon Scientific PressISBN: 1904455743Size: 64.99 MBFormat: PDF, MobiView: 6044Download and Read
Vaccines have long been used to combat infectious diseases, however the last decade has witnessed a revolution in the approach to vaccine design and development. No longer is there a need to rely on the laborious classical methods, such as attenuation or killing the pathogen. Now, sophisticated technologies - such as genomics, proteomics, functional genomics, and synthetic chemistry - can be used for the rational identification of antigens, the synthesis of complex glycans, the generation of engineered carrier proteins, and much more. Never has research in this area been more exciting. In this book, expert international contributors critically review the current cutting-edge research in vaccine design and development. Particular emphasis is given to new approaches and technologies. The book has been divided into two parts. The first part reviews the technologies and approaches used to identify, generate, and test new vaccines. Topics include new strategies to identify protective antigens, generation of improved adjuvants, use of alternative immunization routes, improving vaccine safety, and finding and establishing the correlates of protection. The second part of the book focuses on the development of new vaccines to replace or complement currently available products or for diseases against which prophylactic strategies are missing. Examples include vaccines against nosocomial infections, streptococci, emerging viral diseases, P. aeruginosa, and bovine mastitis.

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